JP3593440B2 - Screen device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a screen device, for example, a device that shields a shielded portion to maintain the temperature inside a building, and prevents the invasion of wind and dust into the building and prevents the spread and spread of smoke at the time of fire.
[0002]
[Prior art]
Conventionally, as a screen device of this type, for example, a guide rail fixed opposite to both sides of a shielded portion and having an insertion opening formed in the up-down direction and rotating upward between the guide rails on both sides thereof A take-up drum provided freely, and a cloth sheet wound around the take-up drum so as to be rewound freely and rewound down along the insertion openings of the guide rails on both sides at the time of rewind to shield the shielded portion. And a weight attached to the lower end of the sheet body and landing on the floor of the shielded part when the shielded part is shielded by the sheet body. .
[0003]
[Problems to be solved by the invention]
In the conventional screen device, since the sheet body is made of cloth, the sheet body is pushed by the wind pressure when the sheet body is swung by receiving a relatively strong wind pressure in a state where the shielded portion is shielded, and the sheet body is bent. However, both ends of the sheet body may come out of the guide rail insertion openings on both sides.
[0004]
Therefore, a plurality of pipes in the width direction of the sheet body are respectively attached at predetermined intervals to an intermediate portion of the sheet body, and the sheet body shielding the shielded portion with the plurality of pipes receives relatively strong wind pressure. Although it is conceivable to prevent the sheet body from bending even when it is pushed, in this configuration, since the pipe protrudes from one side of the sheet body, the space between the opposing side plate portions of the guide rail, that is, the insertion port is provided. Not only increases the size of the guide rail, but also makes it easier for foreign objects to be caught between the side plates of the guide rail and both ends of the reinforcing pipe when descending, and a sheet body having a plurality of pipes protruding. Is wound around the take-up drum, so that a large space for winding the sheet around the take-up drum is required around the take-up drum.
[0005]
SUMMARY OF THE INVENTION The present invention has been made in view of such a problem, and has been made to simplify a sheet body so that the sheet body that shields a shielded portion does not bend even if it is swung by a relatively strong wind pressure. With this configuration, both sides of the sheet can be prevented from slipping out of the guide rail insertion holes on both sides, and the guide rail can be enlarged and a large winding space for the sheet can be provided around the winding drum. It is an object to provide a screen device that is not required.
[0006]
[Means for Solving the Problems]
ContractRequest1The screen device described isA guide rail fixed to both sides of the shielded portion and opposed to each other and having insertion holes formed in the up-down direction, a winding drum rotatably provided above the guide rails on both sides, A sheet body which is wound around a take-up drum so as to be freely rewound, and at the time of rewinding, is inserted by inserting both side ends in the width direction into the insertion openings of the guide rails on the both sides, and is lowered to cover the shielded portion; A weight body in the width direction of the sheet body which is attached to the lower end of the sheet body and which is to be placed on the floor surface of the shielded part when shielding the shielded part with the sheet body; A sheet body reinforcing means which is pulled out by a weight body of the body, and which is stretched along a sheet body in which the weight body is placed on the floor and shields the shielded portion. It is pulled out by the weight body and shields the shielded part. A linear material to be stretched along said sheet, saidThe linear material isSaidPositioned near both ends of the weight body, it is hung between guide rollers on both sides that are rotatably mounted on the shaft, and one end is provided near the upper end of one guide rail via one guide roller. And the other end is rewound around a winder provided near the upper end of the other guide rail via the other guide roller.
[0007]
AndWhen the take-up drum is driven and rotated in the direction of rewinding the sheet body, the sheet body is sequentially rewound from the take-up drum, and both ends of the sheet body in the width direction are inserted into the guide rails on both sides. It is quickly lowered along the mouth and by the weight of the weight. Further, when the weight body is lowered, the sheet body reinforcing means is pulled out by the weight body in conjunction with the lowering of the sheet body, and the weight body comes down on the floor to cover the shielded portion with the sheet body. When shielded, a sheet body reinforcing means is stretched along the sheet body, and the sheet body is reinforced by the sheet body reinforcing means. Therefore, when the sheet body is lowered and the weight body at the lower end portion of the sheet body lands, the shielded portion is shielded by the sheet body and the weight body, and at the same time, is stretched along the sheet body. The sheet member is reinforced by the sheet member reinforcing means such that the sheet member is not greatly bent. Then, even if the sheet that shields the shielded portion is swung by receiving a relatively strong wind pressure, the sheet is not greatly bent because the sheet is reinforced by the sheet reinforcing means. So that both ends of the sheet can be pulled out of the guide rail insertion holes on both sides. And is prevented. Further, when the weight body is lowered, the linear material is pulled out by the weight body in conjunction with the lowering of the sheet body, and the weight body is landed and the shielded part is shielded by the sheet body. Then, a linear member is stretched along the sheet member, and the sheet member is reinforced with the linear member. Therefore, when the sheet body is lowered and the weight body at the lower end portion of the sheet body lands, the shielded portion is shielded by the sheet body and the weight body, and at the same time, is stretched along the sheet body. The sheet material is reinforced by the linear material so as not to be largely bent. Then, even if the sheet body that shields the shielded portion is swung by receiving relatively strong wind pressure, the sheet body is reinforced with the linear material so that the sheet body does not bend significantly. And both end portions of the sheet body are prevented from coming out of the insertion openings of the guide rails on both side portions.
[0008]
Also,When the weight body is lowered, the linear material is unwound from the winder and pulled out by the guide rollers on both sides of the weight body in conjunction with the lowering of the sheet body, and the weight body is landed. When the shielded portion is shielded by the sheet member, a linear member is stretched along the sheet member, and the sheet member is reinforced by the linear member.
[0009]
At this time, the linear material bridged between the guide rollers on both sides of the weight body has one end fixed to a fixing tool near the upper end of one guide rail via one guide roller, and the other end fixed. By being wound around the winder near the upper end of the other guide rail via the other guide roller, the linear material is smoothly pulled out from the winder by the guide rollers on both sides of the weight body, When the weight body reaches the floor and covers the shielded portion with the sheet body, the linear material is stretched along the sheet body in a state of crossing diagonally.
[0010]
When the sheet member receives the relatively strong wind pressure, the cross portion of the linear member is located at the center of the sheet member which is most likely to bend, so that the sheet member does not bend with the linear member. As reinforced.
[0011]
Therefore, when the sheet body is lowered and the weight body at the lower end of the sheet body lands, the shielded portion is shielded by the sheet body and the weight body, and at the same time, the sheet body and the weight are crossed along the sheet body. The sheet material is reinforced by a linear material that is stretched so as not to bend significantly.
[0012]
Then, even if the sheet body that shields the shielded portion is swung by receiving relatively strong wind pressure, the sheet body is reinforced with the linear material so that the sheet body does not bend significantly. And both end portions of the sheet body are prevented from coming out of the insertion openings of the guide rails on both side portions.
[0013]
According to a second aspect of the present invention, there is provided the screen device, wherein the guide rail is fixed to both sides of the shielded portion and has an insertion opening formed in a vertical direction facing each other, and is rotatable upward between the guide rails on both sides. The provided take-up drum, and the both ends in the width direction are inserted into the insertion openings of the guide rails on the both sides at the time of rewind while being rewound freely around the take-up drum, and the covered portion is lowered. A sheet body to be shielded, and a weight body in a width direction of the sheet body attached to a lower end portion of the sheet body and landing on a floor surface of the shielded part when the shielded part is shielded by the sheet body. A sheet body reinforcing means which is pulled out by the weight body of the sheet body when the sheet body is lowered, and which is stretched along the sheet body which is covered with the weight body and which shields the shielded portion. The sheet body reinforcing means includes a guide rail. Is wound around a winder provided near the upper end of the weight so as to be able to be rewound freely, and is bridged between the vicinity of both sides of the weight body, and one linear portion and the other linear portion are diagonally aligned. Is pulled out by the weight body along the sheet body in a crossed state, and when the shielded portion is shielded by the sheet body, it is stretched in a crossed state along the sheet body and the cross portion is stretched. Are located substantially at the center of the sheet body.
[0014]
When the take-up drum is driven and rotated in the direction of rewinding the sheet body, the take-up drum The sheet body is sequentially rewound from the drum, and the sheet body is quickly lowered at both side ends in the width direction along the insertion openings of the guide rails on both sides and due to the weight of the weight body. Further, when the weight body is lowered, the sheet body reinforcing means is pulled out by the weight body in conjunction with the lowering of the sheet body, and the weight body comes down on the floor to cover the shielded portion with the sheet body. When shielded, a sheet body reinforcing means is stretched along the sheet body, and the sheet body is reinforced by the sheet body reinforcing means. Therefore, when the sheet body is lowered and the weight body at the lower end portion of the sheet body lands, the shielded portion is shielded by the sheet body and the weight body, and at the same time, is stretched along the sheet body. The sheet member is reinforced by the sheet member reinforcing means such that the sheet member is not greatly bent. Then, even if the sheet that shields the shielded portion is swung by receiving a relatively strong wind pressure, the sheet is not greatly bent because the sheet is reinforced by the sheet reinforcing means. As a result, both end portions of the sheet body are prevented from coming out of the insertion openings of the guide rails on both side portions.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0016]
In the embodiment shown in FIGS. 1 and 2, reference numeral 1 denotes a vertical left and right guide rail fixed vertically to both sides of a shielded portion 2 such as an entrance, an emergency exit, and a passage. The guide rails 1 have vertical insertion ports 3 opened to face each other and are formed in a substantially U-shaped cross section.
[0017]
Next, a seat box 5 in which the upper ends of the left and right guide rails 1 are inserted is fixed to a ceiling wall portion 4 such as an upper frame body of the shielded portion 2. Left and right seat guide ports 6 are formed so as to open to communicate with the insertion ports 3 of the guide rail 1 respectively.
[0018]
Further, the seat box 5 has left and right side plate portions 7 respectively, and bearing bodies 8 are respectively attached to the left and right side plate portions 7. Both ends of the rotating shaft 9 are respectively attached to the left and right bearing bodies 8. A left-right cylindrical winding drum 10 that is rotatably mounted on a shaft and rotates about the rotation shaft 9 is integrally fixed to the rotation shaft 9. The winding drum 10 is formed to have a length slightly shorter than the interval between the end plates of the left and right guide rails 1. A rotating wheel 11 is fixed to one end of the rotating shaft 9.
[0019]
A motor 12 capable of normal and reverse rotation is fixed in one side of the seat box 5, and a driving wheel 14 is fixed to an output shaft 13 of the motor 12, and an endless motor is provided between the driving wheel 14 and the rotating wheel 11. The revolving body 15 is suspended.
[0020]
When the motor 12 is operated, the rotating shaft 11 is rotated via the endless rotating body 15, and the winding drum 10 winds a sheet body to be described later on the rotating shaft 11. The sheet body is rotated in a direction of rewinding and a direction of rewinding the sheet body. The motor 12 is actuated, for example, by an output signal such as a fire signal from the control means, and is stopped by the control means when a weight, which will be described later, has landed on the floor surface 16 of the shielded portion 2. The operation is stopped by a signal.
[0021]
Next, the upper end of a sheet member 17 that shields the shielded portion 2 is fixed to the winding drum 10 and is wound so as to be rewound freely. The sheet body 17 is formed of a non-combustible fire-resistant sheet body 18 made of a non-burnable fire-resistant sheet and a non-combustible fire-resistant sheet. The non-combustible fire-resistant sheet body 18 is made of, for example, a single piece of glass cloth, silica cloth, or the like. Made of flame-retardant cloth or the like.
[0022]
The non-combustible refractory sheet 18 is formed to a predetermined length to be unwound from the winding drum 10 to shield the shielded portion 2, and both side edges in the width direction of the right and left guide rails 1 are formed. Each is formed as an insertion portion 19 to be inserted into the insertion opening 3.
[0023]
At the lower end of the non-combustible sheet 18, a weight 20 in the width direction of the non-combustible sheet 18 to be placed on the floor 16 of the shielded part 2 is provided. The weight body 20 is formed of a non-combustible weight body 21. The non-combustible weight body 21 is formed as an insertion portion 22 having both ends inserted into the insertion openings 3 of the left and right guide rails 1 so as to be able to move up and down. The outer ends of the insertion portions 22 at both ends are formed continuously with the outer ends of the insertion portions 19 at both side ends in the width direction of the incombustible refractory sheet 18.
[0024]
Next, when the non-combustible refractory sheet 18 descends, it is pulled out by the non-combustible weight 21 of the non-combustible refractory sheet 18 and the non-combustible weight 21 is placed on the floor to shield the shielded portion 2. A sheet reinforcing means 23 is provided to be stretched along the non-combustible refractory sheet 18.
[0025]
The sheet body reinforcing means 23 is fixed between the guide rollers 24 on both sides, which are positioned near both ends of the non-combustible weight body 21 and are rotatably supported respectively, and the upper ends of the guide rails 1 on the both sides. The fixing tool 26 is provided near one end of the mounting frame 25, ie, near the upper end of one of the guide rails 1, and is positioned near the other end of the mounting frame 25, that is, the other. A take-up device 27 provided near the upper end of the guide rail 1 is wound between the guide rollers 24 on both sides, and one end is fixed to the fixing member 26 via one guide roller 24 and And a linear material 28 whose part is rewindably wound around the winder 27 via the other guide roller 24.
[0026]
Then, the linear material 28 is stretched between one linear portion 29 stretched between the one guide roller 24 and the fixing member 26, and the other guide roller 24 and the winder 27. The other linear portion 30 provided is crossed and stretched, and the cross portion 31 is formed by the non-combustible weight body 21 landing on the non-combustible refractory sheet 18 and the shielded portion 2. When it is shielded, it is located substantially at the center of the non-combustible refractory sheet 18.
[0027]
The linear material 28 is formed of a wire 32 or a member in the shape of an elongated wire such as a rope or a string, which is wound around the winder 27 so as to be freely rewound.
[0028]
Further, the winder 27 is provided with a take-up support shaft 33 rotatably mounted on the mounting frame 25, and is wound around the take-up support shaft 33 so as to freely rewind the linear material 28. A pulley 34, and a coil spring 35 provided on the take-up support shaft 33, for urging the pulley 34 through the take-up support shaft 33 in a direction in which the linear material 28 is constantly wound. It is configured.
[0029]
The wire 28 is wound around the pulley 34 which is rotated against the coil spring 35 by the non-combustible weight 21 of the non-combustible sheet 18 when the non-combustible sheet 18 is lowered. The non-combustible weight body 21 is returned and pulled out, and is stretched along the non-combustible fire-resistant sheet body 18 that covers the covered part 2 upon landing.
[0030]
Next, the operation of the embodiment shown in FIGS. 1 and 2 will be described.
[0031]
When shielding the shielded portion 2, for example, when the motor 12 is operated by a fire signal from the control means at the time of a fire that shields the shielded portion 2, the output from the motor 12 is transmitted through the endless revolving body 15. The winding drum 10 of the rotating shaft 9 to be rotated is driven and rotated in the direction of rewinding the sheet body 17, that is, the non-combustible refractory sheet body 18, and the non-combustible refractory sheet body 18 is sequentially rewound from the winding drum 10.
[0032]
Then, both the insertion portions 19 of the non-combustible refractory sheet 18 are guided down along the insertion openings 3 of the left and right guide rails 1 respectively, and the weight 20 at the lower end of the non-combustible refractory sheet 18 is lowered. That is, the insertion portions 22 of the noncombustible weight 21 are quickly lowered by the weight of the noncombustible weight 21 while being guided along the insertion openings 3 of the left and right guide rails 1.
[0033]
When the non-combustible weight 21 is lowered, the non-combustible weight 21 interlocks with the linear material 28 of the sheet body reinforcing means 23, that is, the wire 32, in conjunction with the lowering of the non-combustible weight 21. When the non-combustible weight body 21 is landed and shields the shielded portion 2 with the non-combustible refractory sheet 18, the non-combustible A wire 32 is stretched along the non-combustible sheet 18 and the non-combustible sheet 18 is reinforced by the wire 32.
[0034]
At this time, the wire 32 wrapped between the guide rollers 24 near both sides of the noncombustible weight body 21 has one end fixed to the fixing tool and the other end wrapped around the pulley 34 so as to be freely rewound. When the non-combustible weight body 21 is lowered, the wire 32 is pulled out from the pulley 34 as the other linear part 30 by the guide rollers 24 near both ends, and one linear form is drawn from the guide roller 24 on the right side in FIG. It is fed out as part 29.
[0035]
Then, the wire 32 along the non-combustible refractory sheet 18 in a state where the one linear portion 29 and the other linear portion 30 cross diagonally on the guide rollers 24 near both sides of the non-combustible weight body 21. When the non-combustible weight body 21 is landed and the shielded portion 2 is shielded by the non-combustible fire-resistant sheet body 18, the wire 32 is drawn along the non-combustible fire-resistant sheet body 18. Is stretched in a crossed state.
[0036]
Further, when the non-combustible refractory sheet 18 is subjected to a relatively strong wind pressure or the like, the cross portion 31 of the wire 32 is positioned substantially at the center of the non-combustible refractory sheet 18 which is most likely to bend. Thus, the non-combustible refractory sheet 18 is regulated and reinforced so as not to be bent by wind pressure or the like from a direction opposite to the wire 32.
[0037]
Therefore, the non-combustible sheet 18 and the non-combustible weight 21 at the lower end of the non-combustible sheet 18 descend and descend. At the same time as the shielded portion 2 is shielded by the wire 32 of the sheet body reinforcing means 23 stretched along the nonflammable fireproof sheet body 18, the side face where the nonflammable fireproof sheet body 18 stretches the wire 32 It is reinforced so that it is not largely bent by wind pressure from the opposite direction.
[0038]
Even if the non-combustible refractory sheet 18 that shields the shielded portion 2 is lifted by a relatively strong wind pressure or the like, the non-combustible refractory sheet 18 is reinforced by the wire 32 of the sheet reinforcing means 23. As a result, the non-combustible refractory sheet 18 is regulated so as not to be largely bent, and the insertion portions 19 at both end portions of the non-combustible refractory sheet 18 are inserted from the insertion openings 3 of the guide rails 1 on both sides. It is prevented from getting out.
[0039]
Therefore, when the shielded portion 2 is shielded by the sheet body 17 and the weight body 20, the sheet body 17 is reinforced by the wire 32 even if the sheet body 17 is swung by relatively strong wind pressure or the like. As a result, the insertion portions 19 at both end portions of the sheet member 17 are prevented from coming out of the insertion openings 3 of the guide rails 1 at both side portions, and a high airtightness that blocks outflow and inflow of wind, dust and the like is prevented. Used as a screen device.
[0040]
Further, when the shielded portion 2 is shielded by the non-combustible refractory sheet 18 and the non-combustible weight 21, even if the non-combustible refractory sheet 18 is pushed by the hot air or the like at the time of fire, the wire is not moved. Since the non-combustible refractory sheet 18 is reinforced at 32, the insertion portions 19 at both ends of the non-combustible refractory sheet 18 are prevented from coming out of the insertion openings 3 of the guide rails 1 on both sides, It is used as a highly airtight fireproof screen device that blocks the inflow and outflow of hot air and the like during a fire.
[0041]
Next, in the embodiment shown in FIGS. 1 and 2, the wire 32 of the sheet reinforcing means 23 is stretched along one side surface of the sheet 17 which shields the shielded portion 2, that is, the non-combustible refractory sheet 18. However, the present invention is not limited to this, and the wire 32 of the sheet body reinforcing means 23 is stretched along the other side surface of the sheet body 17 that shields the shielded portion 2, that is, the noncombustible refractory sheet body 18. That is, the wire 32 of the sheet body reinforcing means 23 may be stretched along a side surface opposite to a side surface of the sheet body 17, that is, the non-combustible refractory sheet body 18, which receives a predetermined wind pressure or hot air at the time of fire.
[0042]
Further, the wires 32 of the sheet body reinforcing means 23 are respectively stretched along both side surfaces of the sheet body 17, that is, the non-combustible fire-resistant sheet body 18, and the sheet body 17, that is, the non-combustible fire-resistant sheet body 18 is secured by the wires 32 on both sides. You may make it reinforce so that it may be pinched from both sides. Other configurations are the same as those in the above embodiment.
[0043]
With this configuration, even if the non-combustible refractory sheet body 18 receives a predetermined wind pressure or a hot air at the time of a fire from either one side or the other side, the non-combustible refractory sheet body is provided by the wires 32 on both sides. The flexure 18 is restricted from bending in any direction, and the insertion portions 19 at both ends of the non-combustible refractory sheet 18 are prevented from coming out of the insertion openings 3 of the guide rails 1 at both sides.
[0044]
Next, in each of the above-described embodiments, a single linear member 28, that is, a wire 32, is stretched in a state of being crossed along the sheet member 17 that shields the shielded portion 2, that is, the non-combustible refractory sheet member 18. The case where the non-combustible fire-resistant sheet 18 is reinforced by the wire 32 has been described. However, the present invention is not limited to this, and the sheet 17, that is, the non-combustible fire-resistant sheet 18 may be extended along the non-combustible fire-resistant sheet 18. May be reinforced by the linear material 36, that is, the wire 37.
[0045]
In this case, for example, as shown in FIGS. 3 and 4, a left-right mounting frame 39 is horizontally fixed to a fixing plate portion 38 of the seat box 5 fixed to the ceiling wall portion 4, and is attached to the mounting frame 39. A plurality of winders 40 are provided at predetermined intervals between the upper ends of the guide rails 1 on both sides.
[0046]
The plurality of winders 40 are provided with a winding support shaft 41 rotatably mounted on the mounting frame 39, and the linear material 36, that is, the wire 37, fixed to the winding support shaft 41 so as to be able to be rewound. A winding pulley 42, and a coil spring 43 provided on the winding support shaft 41, and for urging the pulley 42 through the winding support shaft 41 in a direction in which the linear material 36, that is, the wire 37, is constantly wound. , Respectively.
[0047]
Further, upper ends of the plurality of wires 37 which are stretched at predetermined intervals in the width direction of the non-combustible refractory sheet body 18 are fixed to the plurality of winders 40 and are respectively rewound freely. The lower ends of the plurality of wires 37 are fixed to the weight body 20, that is, the non-combustible weight body 21, with the plurality of winders 40 provided at intervals.
[0048]
Then, the plurality of wires 37 are disengaged from the pulley 42 rotated against the coil spring 43 by the non-combustible weight 21 of the non-combustible sheet 18 when the non-combustible sheet 18 is lowered. Each of them is unwound and pulled out, and the incombustible weight body 21 is placed on the floor and stretched along the incombustible refractory sheet 18 which shields the shielded portion 2.
[0049]
The other configuration is the same as that of the above-described embodiment. Therefore, the same components as those of the above-described embodiment are denoted by the same reference numerals used in the above-described embodiment, and the description thereof is omitted.
[0050]
With this configuration, when the non-combustible weight body 21 of the non-combustible fire-resistant sheet body 18 is lowered, the plurality of wires 37 are lowered by the non-combustible weight body 21 to lower the non-combustible fire-resistant sheet body 18. When the non-combustible weight body 21 is landed on the floor 16 and shields the shielded portion 2 with the non-combustible fire-resistant sheet member 18, A plurality of wires 37 are respectively stretched at predetermined intervals in the width direction of the incombustible refractory sheet 18 along the incombustible refractory sheet 18, and the incombustible refractory sheet is provided by the plurality of wires 37. 18 is reinforced so as not to bend.
[0051]
Therefore, the non-combustible sheet 18 and the non-combustible weight 21 at the lower end of the non-combustible sheet 18 descend and descend. At the same time, the shielded portion 2 is shielded at the same time by a plurality of wires 37 extending vertically along the incombustible refractory sheet 18 at predetermined intervals in the width direction of the incombustible refractory sheet 18. Thus, the non-combustible refractory sheet body 18 is reinforced so as not to bend significantly.
[0052]
Even if the non-combustible refractory sheet 18 that shields the shielding portion 2 receives a relatively strong wind pressure, hot air, or the like from the side opposite to the side on which the plurality of wires 37 are stretched, the non-combustible refractory sheet 18 The plurality of wires 37 reinforced with 18 are stretched at predetermined intervals in the width direction of the incombustible refractory sheet body 18, so that the incombustible refractory sheet body 18 is increased by the plurality of wires 37. It is regulated so as not to bend, and the insertion portions 19 at both ends of the non-combustible refractory sheet 18 are prevented from coming out of the insertion openings 3 of the guide rails 1 at both sides.
[0053]
Next, in the embodiment shown in FIGS. 3 and 4, a plurality of linear members of the sheet member reinforcing means 23 are provided along one side surface of the sheet member 17 which shields the shielded portion 2, that is, the non-combustible refractory sheet member 18. The case where the material 36, that is, the wire 37 is stretched has been described. However, the present invention is not limited thereto. The plurality of wires 37 of the sheet body reinforcing means 23 may be stretched along the other side, that is, the non-combustible refractory sheet body 18 has a predetermined wind pressure or a side opposite to the side receiving hot air or the like at the time of fire. At predetermined intervals along the line.
[0054]
Further, a plurality of wires 37 of the sheet body reinforcing means 23 are respectively stretched along both side surfaces of the non-combustible fire-resistant sheet body 18, and the plurality of wires 37 on both sides of the non-combustible fire-resistant sheet body 18 are used to extend the both side surfaces. You may make it reinforce so that it may be pinched. Other configurations are the same as those in the above embodiment.
[0055]
With this configuration, even if the non-combustible refractory sheet body 18 receives a predetermined wind pressure or a hot air at the time of fire from either one side or the other side, the non-combustible The bending of the refractory sheet body 18 in any direction is restricted, and the insertion portions 19 at both end portions of the non-combustible refractory sheet body 18 are prevented from falling out of the insertion openings 3 of the guide rails 1 at both side portions. .
[0056]
【The invention's effect】
ContractRequest1According to the invention ofWhen the take-up drum is driven and rotated in the direction of rewinding the sheet body, the sheet body is sequentially rewound from the take-up drum and is quickly lowered due to the weight of the weight body. When the weight is lowered, the sheet body reinforcing means is pulled out in conjunction with the lowering of the sheet body by the weight body, and when the weight body reaches the floor and shields the shielded portion with the sheet body, the sheet body The sheet body reinforcing means is stretched along. Therefore, when the sheet body is lowered and the weight body at the lower end portion of the sheet body lands, the shielded portion is shielded by the sheet body and the weight body, and at the same time, is stretched along the sheet body. The sheet body reinforcing means can surely reinforce the sheet body so as not to be largely bent. Ma In addition, even if the sheet body shielding the shielded portion is swung by receiving relatively strong wind pressure, the sheet body is reinforced by the sheet body reinforcing means, so that the sheet body does not bend significantly. In addition, it is possible to reliably prevent both end portions of the sheet body from slipping out of the insertion openings of the guide rails on both side portions, and to improve airtightness, for example, capable of maintaining temperature and preventing inflow and outflow of dust and the like. Can be. In addition, when the linear material is pulled out by the weight body in conjunction with the lowering of the sheet body, and when the weight body is landed and the shielded part is shielded by the sheet body, the wire is drawn along the sheet body. A shape member is stretched. Therefore, when the sheet body is lowered and the weight body at the lower end portion of the sheet body lands, the shielded portion is shielded by the sheet body and the weight body, and at the same time, is stretched along the sheet body. It is possible to reliably reinforce the sheet material with the linear material so as not to be largely bent. In addition, even if the sheet body that shields the shielded portion receives a relatively strong wind pressure and is lifted, the sheet body is reinforced with the linear material, so that the sheet body does not bend significantly. Both end portions of the sheet body can be prevented from coming out of the insertion openings of the guide rails on both side portions. Also, since the linear material is stretched along the sheet body, there is no need to increase the size of the guide rail as in the case where a plurality of reinforcing pipes in the width direction are integrally arranged side by side on the sheet body. In some cases, foreign matter or the like is hardly caught between the side plate of the guide rail and both side ends of the sheet body, and a large winding space of the sheet body is not required around the winding drum, and both side ends of the sheet body as a whole are not required. It is possible to provide a screen device that can improve the appearance while preventing the portions from coming out of the insertion openings of the guide rails on both sides.
[0057]
Also,When the weight body is lowered, the linear material is unwound from the winder and pulled out by the guide rollers on both sides of the weight body in conjunction with the lowering of the sheet body, and the weight body is landed. When the shielded portion is shielded by the sheet member, a linear member is stretched along the sheet member, and the sheet member can be reinforced with the linear member.
[0058]
At this time, the linear material bridged between the guide rollers on both sides of the weight body has one end fixed to a fixing tool near the upper end of one guide rail via one guide roller, and the other end fixed. By being wound around the winder near the upper end of the other guide rail via the other guide roller, the linear material is smoothly pulled out from the winder by the guide rollers on both sides of the weight body, When the weight body is landed and the shielded part is shielded by the sheet body, the linear material can be stretched along the sheet body so as to cross diagonally, and the sheet body received relatively strong wind pressure. In this case, since the cross portion of the linear member is located at the center of the sheet member which is most easily bent, the sheet member can be more reliably reinforced so as not to be bent by the linear member.
[0059]
Therefore, even if the sheet member that shields the shielded portion is swung by receiving a relatively strong wind pressure, the sheet member is reinforced with the linear material, so that the sheet member does not bend significantly. , And both end portions of the sheet body can be reliably prevented from falling out of the insertion openings of the guide rails on both side portions.
[0060]
According to the second aspect of the present invention, the winding drum is driven and rotated in the direction of rewinding the sheet body, so that the sheet body is sequentially rewound from the winding drum and quickly due to the weight of the weight body. When the weight body is lowered, the sheet body reinforcing means is pulled out by the weight body in conjunction with the lowering of the sheet body, and the weight body is landed and covered with the sheet body. When the shielding portion is shielded, the sheet body reinforcing means is stretched along the sheet body. Therefore, when the sheet body is lowered and the weight body at the lower end portion of the sheet body lands, the shielded portion is shielded by the sheet body and the weight body, and at the same time, is stretched along the sheet body. The sheet body reinforcing means can surely reinforce the sheet body so as not to be largely bent. Further, even if the sheet body that shields the shielded portion is swung by receiving a relatively strong wind pressure, the sheet body is reinforced by the sheet body reinforcing means, so that the sheet body does not bend significantly. It is possible to reliably prevent both end portions of this sheet body from coming out of the insertion openings of the guide rails on both side portions, and to improve airtightness, for example, to maintain temperature and prevent inflow and outflow of dust and the like. can do.
[Brief description of the drawings]
FIG. 1 is a partially cutaway front view showing a screen device according to an embodiment of the present invention.
FIG. 2 is a side view of the same.
FIG. 3 is a partially cutaway front view of a screen device according to another embodiment.
FIG. 4 is a side view of the same.
[Explanation of symbols]
1 Guide rail
2 Covered part
3 insertion slot
10 Winding drum
16 floor
17 Sheet body
18 Non-combustible fire-resistant sheet
20 weight
21 Noncombustible weight
23 Sheet body reinforcement
24 Guide roller
26 Fixture
27, 40 winder
28, 36 Wire material
32,37 wire

Claims (2)

A guide rail which is fixed to both sides of the shielded portion and faces each other and has an insertion opening formed in a vertical direction,
A winding drum rotatably provided above between the guide rails on both sides,
A sheet body which is wound down so as to be rewound freely on the winding drum, and which is lowered at the time of rewinding by inserting both side end portions in the width direction into the insertion openings of the guide rails on the both side portions and shielding the shielded portion;
A weight body in the width direction of the sheet body, which is attached to a lower end portion of the sheet body and lands on the floor surface of the shielded part when shielding the shielded part with the sheet body;
A sheet body reinforcing means which is pulled out by the weight body of the sheet body when the sheet body is lowered, and which is stretched along the sheet body which is covered with the weight body and the shielded portion is covered by the weight body;
The sheet body reinforcing means is a linear material stretched along the sheet body that is drawn out by the weight body and shields the shielded portion,
The linear material, the upper end of the positioned near both ends of the weight body rotatably spanned between Jikuka been both sides of the guide rollers, one of the guide rail one end through one of the guide rollers The other end was fixed to a fixing tool provided in the vicinity, and the other end was rewindably wound around a winder provided in the vicinity of the upper end of the other guide rail via the other guide roller. ,
Features and be away clean equipment that. A guide rail fixed to both sides of the shielded portion and opposed to each other and having insertion holes formed in the up and down direction,
A winding drum rotatably provided above between the guide rails on both sides,
A sheet body which is wound down so as to be freely rewound on the winding drum, and which is lowered at the time of rewinding by inserting both side end portions in the width direction into the insertion openings of the guide rails on the both side portions, and shielding the shielded portion;
A weight in the width direction of the sheet body, which is attached to a lower end portion of the sheet body and lands on the floor surface of the covered part when shielding the covered part with the sheet body,
A sheet body reinforcing means which is pulled out by the weight body of the sheet body when the sheet body is lowered, and which is stretched along the sheet body which is covered by the weight body and the shielded portion is covered by the weight body;
The sheet body reinforcing means is wound around a winder provided near the upper end of the guide rail so as to be able to be rewound, and is wound around both sides of the weight body. And the other linear part is pulled out by the weight body along the sheet body in a state of crossing diagonally, and along the sheet body when the shielded part is shielded by the sheet body. It is stretched in a crossed state, and the cross portion is located substantially at the center of the sheet body
A screen device characterized by the above-mentioned.

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